The computer hardware and software industry is committed to using formal methods. As a result, it is crucial that students who take automata theory and logic courses retain what they have learned and understand how to use their knowledge. Yet many textbooks typically emphasize automata theory only, not logic, thus losing a valuable opportunity to tie these subjects together and reinforce learning. In fact, automata theory and logic evolved hand-in-hand, yet this connection was severed in the '70s as separate automata-theory and logic courses became possible. Now, with computer science departments suffering from overcrowded syllabi, it is often possible for undergraduates to get a BS without having had to take a course in mathematical logic Today's students want to know how knowledge can work for them - learning theory as a tool is preferable to learning theory for theory's sake. To prove that theoretical tenents are not only applicable, but also necessary and relevant, useful examples must be presented. This textbook uses interactive tools throughout, such as simple BDD and SAT tools. shown to be both inviting and current. Topics are also illustrated in multiple domains so that information is reinforced and students can begin to tie theory and logic together. Having used this book, students will not only know and understand automata theory, but also be able to apply their knowledge in real practice.

This book constitutes the refereed proceedings of the 23rd International Conference on Computer Aided Verification, CAV 2011, held in Snowbird, UT, USA, in July 2011.

The 35 revised full papers presented together with 20 tool papers were carefully reviewed and selected from 161 submissions. The papers are organized in topical sections on the following workshops: 4th International Workshop on Numerical Software Verification (NSV 2011), 10th International Workshop on Parallel and Distributed Methods in Verifications (PDMC 2011), 4th International Workshop on Exploiting Concurrency Efficiently and Correctly (EC2 2011), Frontiers in Analog Circuit Synthesis and Verification (FAC 2011), International Workshop on Satisfiability Modulo Theories, including SMTCOMP (SMT 2011), 18th International SPIN Workshop on Model Checking of Software (SPIN 2011), Formal Methods for Robotics and Automation (FM-R 2011), and Practical Synthesis for Concurrent Systems (PSY 2011).

Although it is critical in today 's world that students who take automata theory and logic courses retain what they have learned and understand how to use their knowledge, many textbooks typically emphasize automata theory only, not logic, thus losing a valuable opportunity to tie these subjects together and reinforce learning. This textbook uses interactive tools throughout, such as simple BDD and SAT tools. By providing a blend of theory and practical applications the material is presented as both inviting and current. Key concepts are illustrated in multiple domains so that information is reinforced and students can begin to tie theory and logic together.

This volumecontains the proceedingsof the Second InternationalConferenceon Formal Methods in Computer-Aided Design (FMCAD'98), organized November 4-6, in Palo Alto, California, USA. The rst event of this series was organized byMandayamSrivasand Albert Camilleriin 1996 inPaloAlto. FMCAD, which evolved from the series Theorem Provers in Circuit Design (TPCD), strives to beapremierforumfordisseminatingresearchinFormalVeri cation(FV) me- ods for digital circuits and systems, including processors, custom VLSI circuits, microcode, andreactivesoftware.Inadditiontosigni cantcase-studiesandve- cationapproaches, FMCADalsoendeavorstorepresentadvancesinthedriving technologies for veri cation, including binary decision diagrams, model che- ing, symbolicreasoning(theorem proving), symbolicsimulation, andabstraction methods. Theconferenceincludedfourinvitedlectures.Theinvitedlecturesweregiven by Kenneth McMillan (Cadence Berkeley Labs) on Minimalist proof assistants: interactions of technology and methodology in formal system level veric ation, by Carl-Johan Seger on Formal methods in CAD from an industrial perspective, by Randal E. Bryant and Bwolen Yang on A performance study of BDD-based model checking, and by Amir Pnueli on Veric ation of data-insensitive circuits: an in-order-retirement case study. Of the 55 regular paper submissionsreceived, 27 were selected by the technical program committee for presentation at the conference. All four tools papers received were also selected. We gratefully acknowledge the services of the technical program comm- tee of FMCAD'98, which consisted of Adnan Aziz (Univ. of Texas at Austin, USA), AlanHu(Univ.ofBritishColumbia, Canada), Albert Camilleri(Hewlett- Packard, USA), CarlPixley(Motorola, USA), CarlosDelgadoKloos (Univ. C- los III de Madrid, Spain), Ching-TsunChou (Intel, USA), EduardCerny (Univ

Automata and Computability is a class-tested textbook which provides a comprehensive and accessible introduction to the theory of automata and computation. The author uses illustrations, engaging examples, and historical remarks to make the material interesting and relevant for students. It incorporates modern/handy ideas, such as derivative-based parsing and a Lambda reducer showing the universality of Lambda calculus. The book also shows how to sculpt automata by making the regular language conversion pipeline available through a simple command interface. A Jupyter notebook will accompany the book to feature code, YouTube videos, and other supplements to assist instructors and students Features Uses illustrations, engaging examples, and historical remarks to make the material accessible Incorporates modern/handy ideas, such as derivative-based parsing and a Lambda reducer showing the universality of Lambda calculus Shows how to "sculpt" automata by making the regular language conversion pipeline available through simple command interface Uses a mini functional programming (FP) notation consisting of lambdas, maps, filters, and set comprehension (supported in Python) to convey math through PL constructs that are succinct and resemble math Provides all concepts are encoded in a compact Functional Programming code that will tesselate with Latex markup and Jupyter widgets in a document that will accompany the books. Students can run code effortlessly href="https://github.com/ganeshutah/Jove.git/"here.